CN115148424B - High-temperature-resistant cable stranded wire device and application method thereof - Google Patents

Abstract

The invention provides a high-temperature-resistant cable stranded wire device, which is characterized in that a base is provided with a paying-off area and a wire collecting area, wherein the paying-off area is provided with a paying-off roller, a wire core is wound on the paying-off roller, the wire collecting area is provided with a wire collecting roller, and the wire collecting roller is used for winding a cable with stranded wires; the wire stranding area comprises a wire stranding seat and an auxiliary seat, the wire stranding area is located between the wire paying-off area and the wire collecting area, the auxiliary seat comprises a wire pressing seat for extruding a cable after wire stranding is completed and a camera for observing the condition of the cable stranding, an auxiliary groove is formed in the auxiliary seat, a left groove and a right groove are formed in the auxiliary groove, and the wire pressing seat is symmetrically arranged in the left groove; the cold liquid circulation assembly comprises a cold liquid storage tank arranged in the base, a liquid outlet pipe and a liquid inlet pipe are arranged on the cold liquid storage tank, the liquid outlet pipe and the liquid inlet pipe penetrate through the base and are respectively connected with the line pressing seat, two liquid outlets are formed in the liquid outlet pipe, and two liquid inlets are formed in the liquid inlet pipe.

Description

High-temperature-resistant cable stranded wire device and application method thereof

Technical Field

The invention belongs to the technical field of cable production, and particularly relates to a high-temperature-resistant cable stranded wire device.

Background

The stranded wire is a process of twisting a plurality of single wires together according to a certain direction and rule to form an integral fiber core, when the single wires are used as cable conductors, the reliability of single wires can be reduced due to the influences of defects and material nonuniformity generated in the manufacturing process, the defects are dispersed, the reliability of the wires is obviously improved, the normal stranded wire is a stranded mode of twisting the single wires or the stranded wires around the axis of the stranded wire in a concentric circle mode, adjacent layers are oppositely twisted, layers are regularly twisted in a layered mode, and in the conventional cable stranded wire device, the quality of the fiber core is influenced by the temperature rise of the contact part of the electric core and the stranded wire device due to long-term rotation and transmission of the electric core, the situation of the stranded wire cannot be observed in real time, the processing procedure after errors is complicated, and the situation of non-compactness of the stranded fiber core is easily caused.

Disclosure of Invention

The invention aims to solve the problems in the prior art and provides a high-temperature-resistant cable stranded device.

The invention provides the following technical scheme:

a high temperature resistant cable stranding apparatus comprising:

The base is provided with a paying-off area and a wire collecting area, the paying-off area is provided with a paying-off roller, a wire core is wound on the paying-off roller, the wire collecting area is provided with a wire collecting roller, and the wire collecting roller is used for winding a cable with stranded wires;

The wire stranding area comprises a wire stranding seat and an auxiliary seat, the wire stranding area is located between the wire paying-off area and the wire collecting area, the auxiliary seat comprises a wire pressing seat for extruding a cable after wire stranding is completed and a camera for observing the condition of the cable stranding, an auxiliary groove is formed in the auxiliary seat, a left groove and a right groove are formed in the auxiliary groove, and the wire pressing seat is symmetrically arranged in the left groove;

the cold liquid circulation assembly comprises a cold liquid storage tank arranged in the base, a liquid outlet pipe and a liquid inlet pipe are arranged on the cold liquid storage tank, the liquid outlet pipe and the liquid inlet pipe penetrate through the base and are respectively connected with the line pressing seat, two liquid outlets are formed in the liquid outlet pipe, and two liquid inlets are formed in the liquid inlet pipe.

Further, the wire pressing seat is provided with a containing cavity and a wire pressing notch, the minimum distance between the containing cavity and the wire pressing notch is 2-3cm, the wire pressing seat is symmetrically provided with connecting holes, and the connecting holes are connected with the liquid outlet pipe and the liquid inlet pipe.

Further, a groove is arranged on the wire pressing seat positioned above, gaps are symmetrically arranged on the wire pressing seat positioned below, the length of the wire pressing seat positioned below is equal to the groove length of the groove of the wire pressing seat positioned above, a jacking cylinder is arranged in the groove on the left side, and when the cable after being twisted is directly smaller, the jacking motor enables the wire pressing seat which is symmetrically arranged to move relatively until the cable is compacted by intersecting the wire pressing seat and the jacking cylinder.

Further, be equipped with the protruding district in the left side recess, flexible cylinder is installed to protruding district one side, flexible cylinder bottom is connected with the cleaning brush for carry out the surface cleaning with the cable after the stranded conductor, the length of cleaning brush is greater than the length of cable stranded conductor two circles.

Further, the camera is installed on the top end of the right groove, and the illuminator is installed at the bottom end of the right groove and illuminates the auxiliary groove, so that the camera can shoot the cable stranded wire conveniently.

Further, one side of the pay-off area is provided with a pay-off tension seat for adjusting tension of the fiber core, the pay-off tension seat is provided with a tension hole and a stranded wire hole, a tension roller is arranged in the tension hole, the stranded wire hole is distributed around the tension hole, the stranded wire hole is distributed by taking a contact point of the tension roller and the fiber core as a circle center, and the stranded wire roller is arranged in the stranded wire hole.

Further, the paying-off tension seat is arranged on the track, the track is symmetrically arranged on the base, one side of the paying-off tension seat is connected with a power source, the power source pushes the paying-off tension seat to linearly move along the track, the other track is provided with a take-up tension seat, the take-up tension seat is positioned on one side of the take-up area, a tension hole is formed in the take-up tension seat, and a tension roller is arranged in the tension hole.

Further, install the stranded conductor seat between unwrapping wire tension seat and the auxiliary seat, be equipped with the hank reel on the stranded conductor seat, be equipped with the central hole that the fine core of being convenient for passed through on the hank reel and evenly lay around the central hole stranded conductor hole, install the card line seat in the stranded conductor hole, one of them be equipped with the adjustment tank on the card line seat, the hydraulic stem is installed to card line seat one side, the hydraulic stem other end is installed on the stranded conductor seat.

Further, install the grudging post on the base, rotate on the grudging post and be connected with the transmission shaft, take-up roller installs on the transmission shaft, installs driving motor on the grudging post, installs the gear train on driving motor's the motor shaft and the transmission shaft, is equipped with the belt on the gear train, unwrapping wire district and take-up district pass through belt drive and connect, install the probe on the take-up roller.

Based on the high-temperature-resistant cable stranded device, the invention also provides a use method of the high-temperature-resistant cable stranded device, which comprises the following steps:

Step one: the paying-off roller wound with the wire core is positioned on the paying-off area, the stranded wire roller wound with the stranded wire is arranged in the stranded wire hole, and the empty wire collecting roller is positioned in the wire collecting area;

Step two: sequentially passing the wire core through the tension hole, the center hole, the auxiliary groove and the tension hole on the wire winding tension seat, and winding the wire core on one end of the wire winding roller;

step three: starting a driving motor, and enabling the wire unwinding roller and the wire winding roller to synchronously move through a gear set and a belt;

Step four: according to the tensioning degree of the wire core, the power source drives the paying-off tension seat to move on the track, and the tension of the wire core is adjusted;

Step five: one end of the stranded wire on the stranded wire roller is fixed through the wire clamping seat, the stranded wire is rotated to stranded the wire core, and the wire pressing seat compresses the cable, so that the cable can be ensured to continuously advance on the premise that the winding roller rotates;

Step six: the cold liquid in the cold liquid storage tank enters the containing cavity through the liquid outlet pipe, after a period of time, the liquid outlet pipe and the liquid inlet pipe are synchronously transmitted, the liquid inlet pipe pumps the liquid with high temperature in the containing cavity back to the cold liquid storage tank, and the liquid outlet pipe pumps the residual cold liquid in the cold liquid storage tank to form cold liquid circulation;

Step seven: the telescopic cylinder pushes down the cleaning brush to the surface of the cable, and the surface foreign matters of the advancing cable are cleaned;

step eight: the camera monitors the stranded wire condition of the cable in real time so as to adjust the tension of the fiber core and the stranded wire in time;

Step nine: when the probe contacts the cable, the drive motor stops working.

The beneficial effects of the invention are as follows:

1. The paying-off roller is located the paying-off area, the take-up roller is located the take-up area, and the paying-off roller is connected with the take-up roller through belt transmission, realizes the synchronous motion of paying-off roller and take-up roller, avoids when both movement speeds are inconsistent, and the pulling force of fine core or cable is too little or too big.

2. The probe sensor is arranged on the winding roller, when the cable is wound to a certain extent and touches the probe, the equipment stops running, so that the winding coil number on the winding roller is prevented from being too large, and the cable is easy to loosen.

3. And one sides of the paying-off area and the winding area are respectively provided with a paying-off tension seat and a winding tension seat, the paying-off tension seat is used for adjusting the tension of the fiber core, the winding tension seat is used for adjusting the tension of the cable, and the phenomenon that the twisted wire core is not compact due to wire breakage caused by overlarge tension or too small tension is avoided.

4. The twisted wires are cleaned by a cleaning brush to remove foreign matters on the surface, so that the surface of the cable is smooth and has uniform color.

5. A camera is arranged in the auxiliary seat, and the camera observes the cable stranded wire condition in real time so as to adjust the stranded wire in time, so that the stranded wire on the surface of the cable is compact, and the quality is improved.

Drawings

The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate the invention and together with the embodiments of the invention, serve to explain the invention. In the drawings:

FIG. 1 is a schematic diagram of the front view of the present invention;

FIG. 2 is a sectional view of the auxiliary seat of the present invention;

FIG. 3 is a left side view of the payout tension seat of the present invention;

FIG. 4 is a left side view of the wire takeup tension seat of the present invention;

FIG. 5 is a left side view of the take-up roll of the present invention;

FIG. 6 is a left side view of the wire holder of the present invention;

FIG. 7 is a schematic view of the wire hole structure of the present invention;

Fig. 8 is a left side view of the cold fluid circulation assembly of the present invention.

Marked in the figure as: 1. paying-off area; 11. a wire releasing roller; 2. a stranded wire area;

21. Paying-off tension seat;

2101. a wire twisting roller; 2102. stranded wire holes; 2103. a tension hole; 2104. a tension roller;

22. a stranded wire seat;

2201. stranded wire holes; 2202. a wire reel; 2203. an adjustment tank; 2204. a hydraulic rod; 2205. a wire clamping seat;

23. a cold liquid circulation assembly; 2301. a cold liquid storage tank; 2302. a liquid outlet pipe; 2303. a liquid inlet pipe;

24. A wire winding tension seat; 2401. a power source;

25. An auxiliary seat;

2501. Jacking the air cylinder; 2502. a left groove; 2503. a cavity; 2504. a cleaning brush; 2505. a wire pressing seat; 2506. a connection hole; 20507. a raised region; 2508. a telescopic cylinder; 2509. a camera; 2510. a right groove; 2511. an auxiliary groove; 2512. a luminaire;

3. a wire winding area; 31. a transmission shaft; 32. a wire winding roller; 33. a probe; 34. a gear set; 35. a belt; 36. a driving motor;

4. a base; 41. a track; 42. and (5) a vertical frame.

Detailed Description

Example 1

As shown in fig. 1, a high temperature resistant cable stranded wire device is provided with a paying-off area 1 and a wire collecting area 3 on a base 4, the paying-off area 1 is provided with a paying-off roller 11, a wire core is wound on the paying-off roller 11, the wire collecting area 3 is provided with a wire collecting roller 32, the wire collecting roller 32 is used for winding a cable with stranded wires completed, a stranded wire area 2 is arranged between the paying-off area 1 and the wire collecting area 3, and the stranded wire area 2 comprises a stranded wire seat 22 and an auxiliary seat 25.

As shown in fig. 6-7, a wire twisting disc 2202 is arranged on the wire twisting seat 22, the wire twisting disc 2202 is rotated by a control system to finish the wire twisting operation of the fiber core, a central hole which is convenient for the fiber core to pass through and wire twisting holes 2201 which are uniformly distributed around the central hole are arranged on the wire twisting disc 2202, and wire clamping seats 2205 are symmetrically arranged in the wire twisting holes 2201.

In order to allow the wire holder 2205 to hold twisted wires of different diameters, the two wire holders 2205 set up in the twisted wire hole 2201 are different in structure. One clamping seat 2205 is provided with an adjusting groove 2203, one side of the clamping seat 2205 is provided with a hydraulic rod 2204, and the other end of the hydraulic rod 2204 is arranged on the stranded wire seat 22;

The thickness of the other clamping seat 2205 is equal to the groove width of the adjusting groove 2203, and different states (separation and intersection) of the two clamping seats 2205 are realized through the hydraulic rod 2204, so that the stranded wires rotate along with the stranded wire disc 2202, and the stranded wire seat 22 is positioned between the paying-off tension seat 21 and the auxiliary seat 25.

As shown in fig. 2, the auxiliary seat 25 comprises a wire pressing seat 2505 for pressing the cable after stranding and a camera 2509 for observing the stranded condition of the cable, an auxiliary groove 2511 is arranged in the auxiliary seat 25, the cable passes through the auxiliary groove 2511, a left side groove 2502 and a right side groove 2510 are arranged in the auxiliary groove 2511, and the wire pressing seat 2505 is symmetrically arranged in the left side groove 2502.

The wire pressing seat 2505 is provided with a containing cavity 2503 and a wire pressing notch, the wire pressing seat 2505 positioned above is provided with a notch, two ends of the wire pressing seat 2505 positioned below are symmetrically provided with notches, as shown in fig. 2, the top length of the wire pressing seat 2505 positioned below is equal to the groove length of the notch of the wire pressing seat 2505 positioned above, the left side groove 2502 is internally provided with a jacking cylinder 2501, when the cable after being twisted is directly smaller, the jacking motor 2501 enables the symmetrically arranged wire pressing seat 2505 to relatively move until the two mutually intersect and compact the cable, and meanwhile, the winding of the cable is not interfered.

As shown in fig. 1-2 and 8, the cold liquid circulation assembly 23 comprises a cold liquid storage tank 2301 installed in a base 4, a liquid outlet pipe 2302 and a liquid inlet pipe 2303 are arranged on the cold liquid storage tank 2301, and the liquid outlet pipe 2302 and the liquid inlet pipe 2303 penetrate through the base 4 and are respectively connected with a wire pressing seat 2505.

Two liquid outlets are arranged on the liquid outlet pipe 2302, two liquid inlets are arranged on the liquid inlet pipe 2303, connecting holes 2506 are symmetrically arranged on the wire pressing seat 2505, the connecting holes 2506 are connected with the liquid outlet pipe 2302 and the liquid inlet pipe 2303, cold liquid is conveyed into the containing cavity 2503 through the liquid outlet pipe 2302, and the liquid inlet pipe 2303 conveys the cold liquid in the containing cavity 2503 into the cold liquid storage tank 2301 to form circulation.

Preferably, the minimum distance between the accommodating cavity 2503 and the wire pressing notch is 2-3cm, so that the temperature of cold liquid in the accommodating cavity 2503 can be conveniently transferred to the contact surface of the wire pressing seat 2505 and the cable.

In order to facilitate the observation of the stranded wire condition of the cable, a camera 2509 is further installed in the auxiliary seat 25, the camera 2509 is installed at the top end of the right side groove 2510, the illuminator 2512 is installed at the bottom end of the right side groove 2510, the illuminator 2512 illuminates the inside of the auxiliary groove 2511, and the camera 2509 is convenient for shooting the stranded wire condition of the cable.

In order to make the surface of the twisted cable smooth, a convex area 2507 is arranged in the left groove 2502, a telescopic cylinder 2508 is arranged on one side of the convex area 2507, the bottom end of the telescopic cylinder 2508 is connected with a cleaning brush 2504 for cleaning the surface of the twisted cable, and the length of the cleaning brush 2504 is larger than the length of two circles of twisted cable, so that the surface cleaning uniformity of the cable is ensured.

One side of the paying-off area 1 is provided with a paying-off tension seat 21 for adjusting the tension of a fiber core, the paying-off tension seat 21 is provided with a tension hole 2103 and a stranded wire hole 2102, a tension roller 2104 is arranged in the tension hole 2103, the stranded wire hole 2102 is distributed around the tension hole 2103, the stranded wire hole 2102 is distributed by taking the contact point of the tension roller 2104 and the fiber core as the center of a circle, and the stranded wire roller 2101 is arranged in the stranded wire hole 2102.

Based on the high-temperature-resistant cable stranded wire device of the embodiment, the invention also provides a use method of the high-temperature-resistant cable stranded wire device, which comprises the following steps:

positioning a wire paying-off roller 11 wound with a wire core on the wire paying-off area 1, mounting a wire twisting roller 2101 wound with a wire twisting in a wire twisting hole 2102, and positioning an empty wire collecting roller 32 in the wire collecting area;

the wire core sequentially passes through the tension hole 2103, the center hole, the auxiliary groove 2511 and the tension hole on the wire winding tension seat 24 and then is wound at one end of the wire winding roller 32;

one end of the stranded wire on the stranding roller 2101 is fixed through the wire clamping seat 2205, the stranded wire disc 2202 rotates to stranded the wire core, and the wire clamping seat 2505 compresses the cable and ensures that the cable can continuously advance on the premise that the winding roller 32 rotates;

Starting at a low speed in the initial state of the equipment, observing the stranded wire condition through an image shot by a camera 2509 after running for a period of time, continuing the stranded wire operation if the condition is normal, and adjusting the equipment in time if the condition is abnormal;

After a period of time, the cold liquid in the cold liquid storage tank 2301 enters the containing cavity 2503 through the liquid outlet pipe 2302, the liquid outlet pipe 2302 and the liquid inlet pipe 2303 are synchronously transmitted, the liquid inlet pipe 2303 pumps the liquid with high temperature in the containing cavity 2503 back to the cold liquid storage tank 2301, and the liquid outlet pipe 2302 pumps the residual cold liquid in the cold liquid storage tank 2301 to form cold liquid circulation;

The telescopic cylinder 2508 pushes down the cleaning brush 2504 to the surface of the cable to sweep out the surface foreign matters of the advancing cable; camera 2509 monitors the cable for strand conditions in real time to adjust the tension of the core and strands in time.

Example two

On the basis of the first embodiment, in order to make the pay-off roll 11 and the take-up roll 32 rotate synchronously, as shown in fig. 1 and 5, a stand 42 is mounted on the base 4, a transmission shaft 31 is connected to the stand 42 in a rotating manner, the take-up roll 32 is mounted on the transmission shaft 31, a driving motor 36 is mounted on the stand 42, a gear set 34 is mounted on a motor shaft of the driving motor 36 and the transmission shaft 31, a belt 35 is arranged on the gear set 34, the pay-off area 1 and the take-up area 3 are connected through a belt transmission, and a probe 33 is mounted on the take-up roll 32.

Starting a driving motor 36, and synchronously moving the paying-off roller 11 and the take-up roller 32 through a gear set 34 and a belt 35; after the cable on the winding roller 32 is wound to a certain number of turns, the probe 33 contacts the cable, and at the moment, the driving motor 36 stops working, and the equipment stops running.

Other components and principles of the present embodiment are the same as those of the first embodiment.

Example III

On the basis of the second embodiment, in order to adjust the tension of the fiber core and the cable, as shown in fig. 1 and 3-4, the paying-off tension seat 21 is mounted on the track 41, the track 41 is symmetrically arranged on the base 4, one side of the paying-off tension seat 21 is connected with the power source 2401, the power source 2401 pushes the paying-off tension seat 21 to linearly move along the track 41, the other track 41 is mounted with the winding tension seat 24, the winding tension seat 24 is located at one side of the winding area 3, the winding tension seat 24 is provided with the tension hole 2103, and the tension roller 2104 is mounted in the tension hole 2103.

According to the tensioning degree of the wire core, the power source 2401 drives the paying-off tension seat 21 to move on the track 41, and the tension of the wire core is adjusted; the compactness of the stranded fiber core is ensured.

Other components and principles of the present embodiment are the same as those of the embodiment.

The above is only a preferred embodiment of the present invention, and the present invention is not limited thereto, but it is to be understood that the present invention is described in detail with reference to the foregoing embodiments, and modifications and equivalents of some of the technical features described in the foregoing embodiments may be made by those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (7)

1. A high temperature resistant cable stranding device, comprising:

The base is provided with a paying-off area and a winding area, the paying-off area is provided with a paying-off roller, a wire core is wound on the paying-off roller, the winding area is provided with a winding roller, and the winding roller is used for winding a cable with stranded wires;

The wire twisting area comprises a wire twisting seat and an auxiliary seat, the wire twisting area is positioned between the wire paying area and the wire collecting area, the auxiliary seat comprises a wire pressing seat for extruding a cable after wire twisting is completed and a camera for observing the condition of the cable twisted, an auxiliary groove is formed in the auxiliary seat, a left groove and a right groove are formed in the auxiliary groove, and the wire pressing seat is symmetrically arranged in the left groove;

The cold liquid circulation assembly comprises a cold liquid storage tank arranged in the base, a liquid outlet pipe and a liquid inlet pipe are arranged on the cold liquid storage tank, the liquid outlet pipe and the liquid inlet pipe penetrate through the base and are respectively connected with the wire pressing seat, two liquid outlets are formed in the liquid outlet pipe, and two liquid inlets are formed in the liquid inlet pipe;

One side of the paying-off area is provided with a paying-off tension seat for adjusting the tension of the fiber core, the paying-off tension seat is provided with a tension hole and a stranded wire hole, a tension roller is arranged in the tension hole, the stranded wire hole is distributed around the tension hole, the stranded wire hole is distributed by taking the contact point of the tension roller and the fiber core as the center of a circle, and the stranded wire roller is arranged in the stranded wire hole;

The paying-off tension seat is arranged on the rail, the rail is symmetrically arranged on the base, one side of the paying-off tension seat is connected with a power source, the power source pushes the paying-off tension seat to linearly move along the rail, the other rail is provided with a winding tension seat, the winding tension seat is positioned on one side of a winding area, the winding tension seat is provided with a tension hole, and a tension roller is arranged in the tension hole;

The novel fiber core paying-off device is characterized in that a stranded wire seat is arranged between the paying-off tension seat and the auxiliary seat, a stranded wire disc is arranged on the stranded wire seat, a central hole which is convenient for a fiber core to pass through and stranded wire holes which are uniformly distributed around the central hole are formed in the stranded wire disc, a wire clamping seat is arranged in the stranded wire holes, one of the stranded wire clamping seats is provided with an adjusting groove, a hydraulic rod is arranged on one side of the wire clamping seat, and the other end of the hydraulic rod is arranged on the stranded wire seat.

2. The high-temperature-resistant cable stranded wire device according to claim 1, wherein the wire pressing seat is provided with a containing cavity and a wire pressing notch, the wire pressing seat is symmetrically provided with connecting holes, and the connecting holes are connected with the liquid outlet pipe and the liquid inlet pipe.

3. The high-temperature-resistant cable stranding device according to claim 2, wherein a groove is formed in the wire pressing seat located above, notches are symmetrically formed in the wire pressing seat located below, the length of the wire pressing seat located below is equal to the groove length of the groove of the wire pressing seat located above, a jacking cylinder is installed in the groove on the left side, when the cable after stranding is directly smaller, the jacking motor enables the wire pressing seat which is symmetrically arranged to move relatively until the two cross compaction cables.

4. The high-temperature-resistant cable stranded wire device according to claim 3, wherein a protruding area is arranged in the left groove, a telescopic cylinder is arranged on one side of the protruding area, and a cleaning brush is connected to the bottom end of the telescopic cylinder and used for cleaning the surface of the cable after stranded wires.

5. The high temperature resistant cable stranded wire device according to claim 1, wherein the camera is arranged at the top end of the right groove, and the illuminator is arranged at the bottom end of the right groove, and the illuminator illuminates the auxiliary groove so as to facilitate the camera to shoot the cable stranded wire condition.

6. The high temperature resistant cable stranding device according to any one of claims 1 to 5, wherein a stand is mounted on the base, a transmission shaft is rotatably connected to the stand, the take-up roller is mounted on the transmission shaft, a driving motor is mounted on the stand, a gear set is mounted on a motor shaft and the transmission shaft of the driving motor, a belt is arranged on the gear set, the pay-off area and the take-up area are connected through a belt transmission, and a probe is mounted on the take-up roller.

7. A method of using the high temperature resistant cable stranded apparatus of any of claims 1-5, comprising the steps of:

s1, positioning a wire paying-off roller wound with a wire core on a wire paying-off area, installing a stranded wire roller wound with stranded wires in a stranded wire hole, and positioning an empty wire collecting roller in a wire collecting area;

s2, sequentially passing the wire core through the tension hole, the center hole, the auxiliary groove and the tension hole on the wire winding tension seat, and winding the wire core on one end of the wire winding roller;

s3, starting a driving motor, and enabling the wire unwinding roller and the wire winding roller to synchronously move through a gear set and a belt;

s4, driving the paying-off tension seat to move on the track by the power source according to the tensioning degree of the wire core, and adjusting the tension of the wire core;

S5, one ends of the stranded wires on the stranded wire rollers are respectively fixed through wire clamping seats, the stranded wire rollers rotate to stranded wires on the wire cores, and the wire clamping seats compress the cables and ensure that the cables can continuously advance on the premise that the winding rollers rotate;

S6, cold liquid in the cold liquid storage tank enters the containing cavity through the liquid outlet pipe, after a period of time, the liquid outlet pipe and the liquid inlet pipe are synchronously transmitted, the liquid inlet pipe pumps the liquid with high temperature in the containing cavity back to the cold liquid storage tank, and the liquid outlet pipe pumps the residual cold liquid in the cold liquid storage tank to form cold liquid circulation;

S7, pushing down the cleaning brush to the surface of the cable by the telescopic cylinder, and cleaning the surface foreign matters of the advancing cable;

s8, monitoring the stranded wire condition of the cable in real time by a camera so as to adjust the tension of the fiber core and the stranded wire in time;

And S9, when the probe contacts the cable, the driving motor stops working.